High speed polymerization reaction initiated by the action

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A high-speed polymerization reaction is initiated by laser light, with an infrared beam monitoring unreacted acrylate double bonds. Acrylate double bonds, specifically the bond between CH2 and CH, absorb infrared radiation, particularly when conjugated with a carbonyl, which causes a slight shift in the carbonyl peak. Fourier Transform Infrared (FTIR) spectroscopy is favored over other techniques for measuring unreacted double bonds due to its rapid scanning capability, allowing for scans in less than a second compared to several minutes for traditional scanning IR methods.
EIRE2003
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So what's happening is a high speed polymerization reaction initiated by the action of laser light.

An infrared beam moniters the amount of unreacted acrylate double bonds. But what is an acrylate double bond? Am I correct in saying that a double bond absorbs IR radiation?
The double bond is the bond between a CH2 and a CH, in the paper that I am reading.

My next question is, why use Fourier Transform Infrared spectroscopy over any other spectroscopic technique to determine the amount of unreacted double bonds through time in a sample?
 
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EIRE2003 said:
So what's happening is a high speed polymerization reaction initiated by the action of laser light.

An infrared beam moniters the amount of unreacted acrylate double bonds. But what is an acrylate double bond? Am I correct in saying that a double bond absorbs IR radiation?
That's the one.

The double bond is the bond between a CH2 and a CH, in the paper that I am reading.
Actually the double bond conjugated to the carbonyl is the absorbing species. The carbonyl peak shifts slightly when conjugated to the double bond.

My next question is, why use Fourier Transform Infrared spectroscopy over any other spectroscopic technique to determine the amount of unreacted double bonds through time in a sample?
You can take a FT scan in less than a second vs a scanning IR that might take a few minutes per scan.
 


Thank you :)
 

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